The Corsair Storage Solutions P256 has been designed using cutting-edge technology to deliver the highest performance and compatibility, in a capacity that is big enough to replace conventional storage solutions in a high-performance PC. The P256 uses specially selected Samsung MLC flash memory and a sophisticated Samsung Controller IC, coupled with 128MB of super-fast cache memory and Native Command Queuing (NCQ) support for blistering, stutter-free performance, delivering read speeds of up to 220MB/sec and write speeds of up to 200MB/sec.

“The Corsair Storage Solutions P256 delivers the best computing experience of any single storage drive available today,” said John Beekley, VP of Applications Engineering at Corsair, “Using the P256 results in immediate and dramatic improvements in system startup and shutdown, game level loading, application startup, and many other everyday tasks. Additionally, the P256 is more durable and reliable than hard disk drives, and has been shown in the Corsair Labs to provide up to 25% longer battery life in portable computers.”

The large, 256GB capacity provides ample space for the most advanced operating systems, multiple applications, and large music, photo and video collections. The Corsair Storage Solutions P256 is one of the most compatible solid-state drives available today due to the extensive validation of the Samsung controller and flash memory technology in multiple OEM systems.

The Corsair Storage Solutions P256 SSD is available immediately from Corsair’s authorized distributors and resellers worldwide, and is backed by a Two Year Limited Warranty. Complete customer support via telephone, email, forum and Tech Support Express is also available. For more information on Corsair SSD drives, please visit Corsair.

For more information about the Corsair P256 SSD, please visit this page.

#1 worldwide on 3D Mark 99 or 2000 or one of those, at one point back in the day. :)

Perhaps the idea of the NCQ is to re-order writes so they are done more efficiently (e.g. in batches) and/or (per some new spec from MS or whatever) to also re-order operations to give priority to reads?

NCQ was originally designed to compensate for the rotational latency inherent to mechanical hard drives, but here it's being used in reverse, because Intel says its SSDs are so fast that they actually encounter latency in the host system. It takes a little time (time is of course relative when you're talking about an SSD whose access latency is measured in microseconds) between when a system completes a request and the next one is issued. NCQ is used to queue up to 32 requests to keep the X25-E busy during any downtime between requests.